# Le Monde puzzle [#843]

**Xi'an's Og » R**, and kindly contributed to R-bloggers]. (You can report issue about the content on this page here)

Want to share your content on R-bloggers? click here if you have a blog, or here if you don't.

**A** straightforward Le Monde mathematical puzzle:

Find integers x with 4 to 8 digitswhich are (a) perfect squares x=y² such that [x/100] is also a perfect square; (b) perfect cubes x=y³ such that [x/1000] is also a perfect cube; (c)perfect cubes x=y³ such that [x/100]is also a perfect cube (where [y] denotes here the integer part).

**I** first ran an R code in the train from Luxembourg that was not workng (the code not the train!), as I had started with

cubs=(34:999)^2 #perfect square cubs=cubs[cubs%%10>0] #no 0 at the end trubs=trunc(cubs/100) difs=apply(abs(outer(cubs,trubs,"-")),2,min) mots=cubs[difs==0]

**I**f namely too high a lower bound in the list of perfect squares. It thus returned an empty set with good reasons. Using instead

cubs=(1:999)^2 #perfect square

produced the outcome

> mots [1] 121 144 169 196 441 484 961 1681

and hence the solution 1681. For the other questions, I used

trubs=(1:999)^3 for (i in 1:length(trubs)){ cubs=trubs[i]*100+(1:99) sol=abs(cubs-round(exp(log(cubs)/3))^3) if (min(sol)==0){ print(cubs[sol==0])} }

and got the outcome

[1] 125 [1] 2744

which means a solution of 2744. Same thing for

trubs=(1:999)^3 for (i in 1:length(trubs)){ cubs=trubs[i]*1000+(1:999) sol=abs(cubs-round(exp(log(cubs)/3))^3) if (min(sol)==0){ print(cubs[sol==0])} }

and

[1] 1331 1728

and two solutions. (Of course, writing things on a piece of paper goes way faster…)

Filed under: Books, Kids, R Tagged: Le Monde, mathematical puzzle, R

**leave a comment**for the author, please follow the link and comment on their blog:

**Xi'an's Og » R**.

R-bloggers.com offers

**daily e-mail updates**about R news and tutorials about learning R and many other topics. Click here if you're looking to post or find an R/data-science job.

Want to share your content on R-bloggers? click here if you have a blog, or here if you don't.